DE879852C - Tunable high frequency line system - Google Patents

Description

Tunable high-frequency line system In high-frequency technology Lines of variable length are often used, either as a stub line for voting purposes, or as a transmission line for resistance transformation. In the latter case in particular, it is important to comply with a special one Wave resistance and freedom of conduction from joints and changes in the Wave resistance. In. As a rule, parallel wire lines are classified as in concentric pipelines two systems parallel to each other and connects them, by pull-out, bent pieces of pipe, like a slide trombone. Needed one large extension lengths, one forms the trumpet in four or six parts. the Parts that can be slid into one another naturally result in jumps at the connecting parts of the wave impedance, which is particularly important in the case of small wave impedances of the small Conductor spacing due to and at high frequencies leads to intolerable waviness in the line to lead. can, if at certain extension lengths the effects of the surge in wave resistance just add up.

The invention shows a way on which the described disadvantage can be avoided by the fact that in a tunable high-frequency line system the length of the preferably band-shaped conductors is increased by rolling them up or down are changeable at one end. The thickness or width of the wires or ribbons existing Leiturigen as well as the mutual distance or the distance from an orderly one Metal plate determine the wave resistance of the system: it recommends see that To apply tapes or wires to insulating material.

In the drawing, exemplary embodiments according to the invention are shown. The arrangement according to FIG. I is the application of the high-frequency line system according to the invention as a transmission line, namely a system that goes to earth is electrically symmetrical. According to the well-known trumpet, two become alike Systems Li, L2 arranged parallel to each other, from. those at the ends to be rolled up each, one conductor with the corresponding conductor of the other system through a connecting bracket B is conductively connected. The two brackets are insulated and secured in a frame and form a line piece that leads from one line system to the other. The length of the line can be varied by moving the entire frame. The open ends of the ribbon-shaped conductors protruding behind the frame are Rolled up on shafts made of insulating material W, otherwise depending on the distance from the frame additional capacitances or inductances from the ends, d. H. so butt joints, would result. The shafts W are rotatably mounted on the frame. By moving of the frame and simultaneous turning of the shafts is the coordination of the piping system achieved. The remaining ones; now practically the same for all extension lengths large residual capacities of the rolled up conductor ends can be achieved by choosing a corresponding smaller width of the connecting bracket B, which is a Leiteng with smaller Transverse capacitance corresponds to be compensated.

In Fig. As a further embodiment, FIG. 2 is an electrical to earth asymmetrical system shown. The structure is significantly simplified here, because every pipe system only consists of one band or wire, the second Conductor facing a common grounded plate. Accordingly, it only takes a connecting bracket and a shaft. Otherwise, the voting process takes place in the same way as in the embodiment of FIG.

FIGS. 3 and [show examples of the use of the line system according to the invention as a stub for tuning purposes, namely in Fig. 3- a A system that is electrically symmetrical to earth is shown, in which there is only one line system needs, the two conductors Li, L2 at one end by a sliding short-circuit clip are allied and rolled up. The one electrically asymmetrical to earth System according to Fig. 4, only one conductor L1 is wound up and through a shorting clip K connected to the opposite earth plate E. Practically the most important arrangement should be the one according to Fig. 2, because especially with the one otherwise used for this purpose, designed as a concentric pipeline] trombone from those described at the beginning Reasons unsustainable ripples occur. The line system according to the invention can be connected to a concentric cable with practically no joints at the input and output will. To improve the support of the tapes or wires on the insulating pad I this is expediently designed with the earth plate E arched or better still as a circular cylinder, whereby the tuning mechanism according to FIG. 5 is particularly simple will. This is only a specific embodiment. B. also the Cylindrical: turn the drum, remove the current from the fixed: sliding contacts and the tapes immediately behind it on a fixed in space. Roll up the insulating shaft, while the connecting bracket together with the other ends of the straps this time up is firmly attached to the drum.

As an advantage of the invention over the known concentric arrangement it can also be stated that the wave resistance of the line is considerably lighter is adjustable by looking at the widths of the ribbons and their mutual spacing or their distance from the tectonic plate changed.

The metal strips can also be used as a metal layer on a flexible one Apply insulating tape and then roll it up as a whole to change the length, an embodiment in which a particularly favorable support on the Isolierstoffträ.ger is achieved.

Claims (7)

PATENT CLAIMS: i. Tunable high-frequency line system, characterized in that the preferably band-shaped conductors in their. Lengths can be changed by rolling up or down at one end. 2: As a transmission line Line system serving for resistance transformation according to claim i, consisting from two conductor arrangements, each from two parallel, band-shaped and with their flat sides facing ladders exist, with the ends to be rolled up a conductor of one arrangement with the corresponding conductor the other arrangement is connected by means of a metal bracket. 3. Piping system according to claim 2, characterized in that the metal bracket is insulated in a frame are attached, the movement of which can change the lengths of the piping system, are. 4. Line system according to claim 2, characterized in that on the frame from Isolierstcxff existing shafts are rotatably arranged on which the over the Frame extending out conductor ends rolled up or unrolled when the frame moves will. 5. Line system according to claims i to 4, characterized in that the remaining capacity of the rolled up cable ends by choosing one accordingly smaller width the metal bracket or, if necessary, through accordingly selected Ouerinduktiv ities is compensated. 6. As a transmission line for resistance transformation Serving line system according to claim i, characterized in that two parallel Running band-shaped conductors arranged opposite a common grounded plate are. 7. As a branch line for voting purposes serving line system according to claim i, characterized in that two parallel ribbon-shaped conductors to the the ends to be rolled up wear a sliding short-circuit clip. S. As a branch line line system serving for voting purposes according to claim i, characterized in that that a band-shaped conductor running parallel to a grounded plate on the to be rolled up end carries a sliding short-circuit bracket against the earth plate. G. Line system according to claims i to 7, characterized in that da.ß for the strip-shaped conductor is provided with a carrier made of insulating material. ok Piping system according to claims 6 and 8, characterized in that the insulating material carrier is designed as a circular cylinder. i i. Line system according to claims i to 9, characterized in that the strip-shaped conductor is covered by a metal layer are formed, which is applied to a flexible insulating tape.